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opentelemetry-collector
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// Copyright The OpenTelemetry Authors
// SPDX-License-Identifier: Apache-2.0
// Code generated by "internal/cmd/pdatagen/main.go". DO NOT EDIT.
// To regenerate this file run "make genpdata".
package internal
import (
"encoding/binary"
"fmt"
"math"
"sync"
otlpcommon "go.opentelemetry.io/collector/pdata/internal/data/protogen/common/v1"
otlpmetrics "go.opentelemetry.io/collector/pdata/internal/data/protogen/metrics/v1"
"go.opentelemetry.io/collector/pdata/internal/json"
"go.opentelemetry.io/collector/pdata/internal/proto"
)
var (
protoPoolExponentialHistogramDataPoint = sync.Pool{
New: func() any {
return &otlpmetrics.ExponentialHistogramDataPoint{}
},
}
ProtoPoolExponentialHistogramDataPoint_Sum = sync.Pool{
New: func() any {
return &otlpmetrics.ExponentialHistogramDataPoint_Sum{}
},
}
ProtoPoolExponentialHistogramDataPoint_Min = sync.Pool{
New: func() any {
return &otlpmetrics.ExponentialHistogramDataPoint_Min{}
},
}
ProtoPoolExponentialHistogramDataPoint_Max = sync.Pool{
New: func() any {
return &otlpmetrics.ExponentialHistogramDataPoint_Max{}
},
}
)
func NewOrigExponentialHistogramDataPoint() *otlpmetrics.ExponentialHistogramDataPoint {
if !UseProtoPooling.IsEnabled() {
return &otlpmetrics.ExponentialHistogramDataPoint{}
}
return protoPoolExponentialHistogramDataPoint.Get().(*otlpmetrics.ExponentialHistogramDataPoint)
}
func DeleteOrigExponentialHistogramDataPoint(orig *otlpmetrics.ExponentialHistogramDataPoint, nullable bool) {
if orig == nil {
return
}
if !UseProtoPooling.IsEnabled() {
orig.Reset()
return
}
for i := range orig.Attributes {
DeleteOrigKeyValue(&orig.Attributes[i], false)
}
switch ov := orig.Sum_.(type) {
case *otlpmetrics.ExponentialHistogramDataPoint_Sum:
if UseProtoPooling.IsEnabled() {
ov.Sum = float64(0)
ProtoPoolExponentialHistogramDataPoint_Sum.Put(ov)
}
}
DeleteOrigExponentialHistogramDataPoint_Buckets(&orig.Positive, false)
DeleteOrigExponentialHistogramDataPoint_Buckets(&orig.Negative, false)
for i := range orig.Exemplars {
DeleteOrigExemplar(&orig.Exemplars[i], false)
}
switch ov := orig.Min_.(type) {
case *otlpmetrics.ExponentialHistogramDataPoint_Min:
if UseProtoPooling.IsEnabled() {
ov.Min = float64(0)
ProtoPoolExponentialHistogramDataPoint_Min.Put(ov)
}
}
switch ov := orig.Max_.(type) {
case *otlpmetrics.ExponentialHistogramDataPoint_Max:
if UseProtoPooling.IsEnabled() {
ov.Max = float64(0)
ProtoPoolExponentialHistogramDataPoint_Max.Put(ov)
}
}
orig.Reset()
if nullable {
protoPoolExponentialHistogramDataPoint.Put(orig)
}
}
func CopyOrigExponentialHistogramDataPoint(dest, src *otlpmetrics.ExponentialHistogramDataPoint) {
// If copying to same object, just return.
if src == dest {
return
}
dest.Attributes = CopyOrigKeyValueSlice(dest.Attributes, src.Attributes)
dest.StartTimeUnixNano = src.StartTimeUnixNano
dest.TimeUnixNano = src.TimeUnixNano
dest.Count = src.Count
if srcSum, ok := src.Sum_.(*otlpmetrics.ExponentialHistogramDataPoint_Sum); ok {
destSum, ok := dest.Sum_.(*otlpmetrics.ExponentialHistogramDataPoint_Sum)
if !ok {
destSum = &otlpmetrics.ExponentialHistogramDataPoint_Sum{}
dest.Sum_ = destSum
}
destSum.Sum = srcSum.Sum
} else {
dest.Sum_ = nil
}
dest.Scale = src.Scale
dest.ZeroCount = src.ZeroCount
CopyOrigExponentialHistogramDataPoint_Buckets(&dest.Positive, &src.Positive)
CopyOrigExponentialHistogramDataPoint_Buckets(&dest.Negative, &src.Negative)
dest.Flags = src.Flags
dest.Exemplars = CopyOrigExemplarSlice(dest.Exemplars, src.Exemplars)
if srcMin, ok := src.Min_.(*otlpmetrics.ExponentialHistogramDataPoint_Min); ok {
destMin, ok := dest.Min_.(*otlpmetrics.ExponentialHistogramDataPoint_Min)
if !ok {
destMin = &otlpmetrics.ExponentialHistogramDataPoint_Min{}
dest.Min_ = destMin
}
destMin.Min = srcMin.Min
} else {
dest.Min_ = nil
}
if srcMax, ok := src.Max_.(*otlpmetrics.ExponentialHistogramDataPoint_Max); ok {
destMax, ok := dest.Max_.(*otlpmetrics.ExponentialHistogramDataPoint_Max)
if !ok {
destMax = &otlpmetrics.ExponentialHistogramDataPoint_Max{}
dest.Max_ = destMax
}
destMax.Max = srcMax.Max
} else {
dest.Max_ = nil
}
dest.ZeroThreshold = src.ZeroThreshold
}
func GenTestOrigExponentialHistogramDataPoint() *otlpmetrics.ExponentialHistogramDataPoint {
orig := NewOrigExponentialHistogramDataPoint()
orig.Attributes = GenerateOrigTestKeyValueSlice()
orig.StartTimeUnixNano = 1234567890
orig.TimeUnixNano = 1234567890
orig.Count = uint64(13)
orig.Sum_ = &otlpmetrics.ExponentialHistogramDataPoint_Sum{Sum: float64(3.1415926)}
orig.Scale = int32(13)
orig.ZeroCount = uint64(13)
orig.Positive = *GenTestOrigExponentialHistogramDataPoint_Buckets()
orig.Negative = *GenTestOrigExponentialHistogramDataPoint_Buckets()
orig.Flags = 1
orig.Exemplars = GenerateOrigTestExemplarSlice()
orig.Min_ = &otlpmetrics.ExponentialHistogramDataPoint_Min{Min: float64(3.1415926)}
orig.Max_ = &otlpmetrics.ExponentialHistogramDataPoint_Max{Max: float64(3.1415926)}
orig.ZeroThreshold = float64(3.1415926)
return orig
}
// MarshalJSONOrig marshals all properties from the current struct to the destination stream.
func MarshalJSONOrigExponentialHistogramDataPoint(orig *otlpmetrics.ExponentialHistogramDataPoint, dest *json.Stream) {
dest.WriteObjectStart()
if len(orig.Attributes) > 0 {
dest.WriteObjectField("attributes")
dest.WriteArrayStart()
MarshalJSONOrigKeyValue(&orig.Attributes[0], dest)
for i := 1; i < len(orig.Attributes); i++ {
dest.WriteMore()
MarshalJSONOrigKeyValue(&orig.Attributes[i], dest)
}
dest.WriteArrayEnd()
}
if orig.StartTimeUnixNano != uint64(0) {
dest.WriteObjectField("startTimeUnixNano")
dest.WriteUint64(orig.StartTimeUnixNano)
}
if orig.TimeUnixNano != uint64(0) {
dest.WriteObjectField("timeUnixNano")
dest.WriteUint64(orig.TimeUnixNano)
}
if orig.Count != uint64(0) {
dest.WriteObjectField("count")
dest.WriteUint64(orig.Count)
}
if orig, ok := orig.Sum_.(*otlpmetrics.ExponentialHistogramDataPoint_Sum); ok {
dest.WriteObjectField("sum")
dest.WriteFloat64(orig.Sum)
}
if orig.Scale != int32(0) {
dest.WriteObjectField("scale")
dest.WriteInt32(orig.Scale)
}
if orig.ZeroCount != uint64(0) {
dest.WriteObjectField("zeroCount")
dest.WriteUint64(orig.ZeroCount)
}
dest.WriteObjectField("positive")
MarshalJSONOrigExponentialHistogramDataPoint_Buckets(&orig.Positive, dest)
dest.WriteObjectField("negative")
MarshalJSONOrigExponentialHistogramDataPoint_Buckets(&orig.Negative, dest)
if orig.Flags != uint32(0) {
dest.WriteObjectField("flags")
dest.WriteUint32(orig.Flags)
}
if len(orig.Exemplars) > 0 {
dest.WriteObjectField("exemplars")
dest.WriteArrayStart()
MarshalJSONOrigExemplar(&orig.Exemplars[0], dest)
for i := 1; i < len(orig.Exemplars); i++ {
dest.WriteMore()
MarshalJSONOrigExemplar(&orig.Exemplars[i], dest)
}
dest.WriteArrayEnd()
}
if orig, ok := orig.Min_.(*otlpmetrics.ExponentialHistogramDataPoint_Min); ok {
dest.WriteObjectField("min")
dest.WriteFloat64(orig.Min)
}
if orig, ok := orig.Max_.(*otlpmetrics.ExponentialHistogramDataPoint_Max); ok {
dest.WriteObjectField("max")
dest.WriteFloat64(orig.Max)
}
if orig.ZeroThreshold != float64(0) {
dest.WriteObjectField("zeroThreshold")
dest.WriteFloat64(orig.ZeroThreshold)
}
dest.WriteObjectEnd()
}
// UnmarshalJSONOrigExponentialHistogramDataPoint unmarshals all properties from the current struct from the source iterator.
func UnmarshalJSONOrigExponentialHistogramDataPoint(orig *otlpmetrics.ExponentialHistogramDataPoint, iter *json.Iterator) {
for f := iter.ReadObject(); f != ""; f = iter.ReadObject() {
switch f {
case "attributes":
for iter.ReadArray() {
orig.Attributes = append(orig.Attributes, otlpcommon.KeyValue{})
UnmarshalJSONOrigKeyValue(&orig.Attributes[len(orig.Attributes)-1], iter)
}
case "startTimeUnixNano", "start_time_unix_nano":
orig.StartTimeUnixNano = iter.ReadUint64()
case "timeUnixNano", "time_unix_nano":
orig.TimeUnixNano = iter.ReadUint64()
case "count":
orig.Count = iter.ReadUint64()
case "sum":
{
var ov *otlpmetrics.ExponentialHistogramDataPoint_Sum
if !UseProtoPooling.IsEnabled() {
ov = &otlpmetrics.ExponentialHistogramDataPoint_Sum{}
} else {
ov = ProtoPoolExponentialHistogramDataPoint_Sum.Get().(*otlpmetrics.ExponentialHistogramDataPoint_Sum)
}
ov.Sum = iter.ReadFloat64()
orig.Sum_ = ov
}
case "scale":
orig.Scale = iter.ReadInt32()
case "zeroCount", "zero_count":
orig.ZeroCount = iter.ReadUint64()
case "positive":
UnmarshalJSONOrigExponentialHistogramDataPoint_Buckets(&orig.Positive, iter)
case "negative":
UnmarshalJSONOrigExponentialHistogramDataPoint_Buckets(&orig.Negative, iter)
case "flags":
orig.Flags = iter.ReadUint32()
case "exemplars":
for iter.ReadArray() {
orig.Exemplars = append(orig.Exemplars, otlpmetrics.Exemplar{})
UnmarshalJSONOrigExemplar(&orig.Exemplars[len(orig.Exemplars)-1], iter)
}
case "min":
{
var ov *otlpmetrics.ExponentialHistogramDataPoint_Min
if !UseProtoPooling.IsEnabled() {
ov = &otlpmetrics.ExponentialHistogramDataPoint_Min{}
} else {
ov = ProtoPoolExponentialHistogramDataPoint_Min.Get().(*otlpmetrics.ExponentialHistogramDataPoint_Min)
}
ov.Min = iter.ReadFloat64()
orig.Min_ = ov
}
case "max":
{
var ov *otlpmetrics.ExponentialHistogramDataPoint_Max
if !UseProtoPooling.IsEnabled() {
ov = &otlpmetrics.ExponentialHistogramDataPoint_Max{}
} else {
ov = ProtoPoolExponentialHistogramDataPoint_Max.Get().(*otlpmetrics.ExponentialHistogramDataPoint_Max)
}
ov.Max = iter.ReadFloat64()
orig.Max_ = ov
}
case "zeroThreshold", "zero_threshold":
orig.ZeroThreshold = iter.ReadFloat64()
default:
iter.Skip()
}
}
}
func SizeProtoOrigExponentialHistogramDataPoint(orig *otlpmetrics.ExponentialHistogramDataPoint) int {
var n int
var l int
_ = l
for i := range orig.Attributes {
l = SizeProtoOrigKeyValue(&orig.Attributes[i])
n += 1 + proto.Sov(uint64(l)) + l
}
if orig.StartTimeUnixNano != 0 {
n += 9
}
if orig.TimeUnixNano != 0 {
n += 9
}
if orig.Count != 0 {
n += 9
}
if orig, ok := orig.Sum_.(*otlpmetrics.ExponentialHistogramDataPoint_Sum); ok {
_ = orig
n += 9
}
if orig.Scale != 0 {
n += 1 + proto.Soz(uint64(orig.Scale))
}
if orig.ZeroCount != 0 {
n += 9
}
l = SizeProtoOrigExponentialHistogramDataPoint_Buckets(&orig.Positive)
n += 1 + proto.Sov(uint64(l)) + l
l = SizeProtoOrigExponentialHistogramDataPoint_Buckets(&orig.Negative)
n += 1 + proto.Sov(uint64(l)) + l
if orig.Flags != 0 {
n += 1 + proto.Sov(uint64(orig.Flags))
}
for i := range orig.Exemplars {
l = SizeProtoOrigExemplar(&orig.Exemplars[i])
n += 1 + proto.Sov(uint64(l)) + l
}
if orig, ok := orig.Min_.(*otlpmetrics.ExponentialHistogramDataPoint_Min); ok {
_ = orig
n += 9
}
if orig, ok := orig.Max_.(*otlpmetrics.ExponentialHistogramDataPoint_Max); ok {
_ = orig
n += 9
}
if orig.ZeroThreshold != 0 {
n += 9
}
return n
}
func MarshalProtoOrigExponentialHistogramDataPoint(orig *otlpmetrics.ExponentialHistogramDataPoint, buf []byte) int {
pos := len(buf)
var l int
_ = l
for i := len(orig.Attributes) - 1; i >= 0; i-- {
l = MarshalProtoOrigKeyValue(&orig.Attributes[i], buf[:pos])
pos -= l
pos = proto.EncodeVarint(buf, pos, uint64(l))
pos--
buf[pos] = 0xa
}
if orig.StartTimeUnixNano != 0 {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], uint64(orig.StartTimeUnixNano))
pos--
buf[pos] = 0x11
}
if orig.TimeUnixNano != 0 {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], uint64(orig.TimeUnixNano))
pos--
buf[pos] = 0x19
}
if orig.Count != 0 {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], uint64(orig.Count))
pos--
buf[pos] = 0x21
}
if orig, ok := orig.Sum_.(*otlpmetrics.ExponentialHistogramDataPoint_Sum); ok {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], math.Float64bits(orig.Sum))
pos--
buf[pos] = 0x29
}
if orig.Scale != 0 {
pos = proto.EncodeVarint(buf, pos, uint64((uint32(orig.Scale)<<1)^uint32(orig.Scale>>31)))
pos--
buf[pos] = 0x30
}
if orig.ZeroCount != 0 {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], uint64(orig.ZeroCount))
pos--
buf[pos] = 0x39
}
l = MarshalProtoOrigExponentialHistogramDataPoint_Buckets(&orig.Positive, buf[:pos])
pos -= l
pos = proto.EncodeVarint(buf, pos, uint64(l))
pos--
buf[pos] = 0x42
l = MarshalProtoOrigExponentialHistogramDataPoint_Buckets(&orig.Negative, buf[:pos])
pos -= l
pos = proto.EncodeVarint(buf, pos, uint64(l))
pos--
buf[pos] = 0x4a
if orig.Flags != 0 {
pos = proto.EncodeVarint(buf, pos, uint64(orig.Flags))
pos--
buf[pos] = 0x50
}
for i := len(orig.Exemplars) - 1; i >= 0; i-- {
l = MarshalProtoOrigExemplar(&orig.Exemplars[i], buf[:pos])
pos -= l
pos = proto.EncodeVarint(buf, pos, uint64(l))
pos--
buf[pos] = 0x5a
}
if orig, ok := orig.Min_.(*otlpmetrics.ExponentialHistogramDataPoint_Min); ok {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], math.Float64bits(orig.Min))
pos--
buf[pos] = 0x61
}
if orig, ok := orig.Max_.(*otlpmetrics.ExponentialHistogramDataPoint_Max); ok {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], math.Float64bits(orig.Max))
pos--
buf[pos] = 0x69
}
if orig.ZeroThreshold != 0 {
pos -= 8
binary.LittleEndian.PutUint64(buf[pos:], math.Float64bits(orig.ZeroThreshold))
pos--
buf[pos] = 0x71
}
return len(buf) - pos
}
func UnmarshalProtoOrigExponentialHistogramDataPoint(orig *otlpmetrics.ExponentialHistogramDataPoint, buf []byte) error {
var err error
var fieldNum int32
var wireType proto.WireType
l := len(buf)
pos := 0
for pos < l {
// If in a group parsing, move to the next tag.
fieldNum, wireType, pos, err = proto.ConsumeTag(buf, pos)
if err != nil {
return err
}
switch fieldNum {
case 1:
if wireType != proto.WireTypeLen {
return fmt.Errorf("proto: wrong wireType = %d for field Attributes", wireType)
}
var length int
length, pos, err = proto.ConsumeLen(buf, pos)
if err != nil {
return err
}
startPos := pos - length
orig.Attributes = append(orig.Attributes, otlpcommon.KeyValue{})
err = UnmarshalProtoOrigKeyValue(&orig.Attributes[len(orig.Attributes)-1], buf[startPos:pos])
if err != nil {
return err
}
case 2:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field StartTimeUnixNano", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
orig.StartTimeUnixNano = uint64(num)
case 3:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field TimeUnixNano", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
orig.TimeUnixNano = uint64(num)
case 4:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field Count", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
orig.Count = uint64(num)
case 5:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field Sum", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
var ov *otlpmetrics.ExponentialHistogramDataPoint_Sum
if !UseProtoPooling.IsEnabled() {
ov = &otlpmetrics.ExponentialHistogramDataPoint_Sum{}
} else {
ov = ProtoPoolExponentialHistogramDataPoint_Sum.Get().(*otlpmetrics.ExponentialHistogramDataPoint_Sum)
}
ov.Sum = math.Float64frombits(num)
orig.Sum_ = ov
case 6:
if wireType != proto.WireTypeVarint {
return fmt.Errorf("proto: wrong wireType = %d for field Scale", wireType)
}
var num uint64
num, pos, err = proto.ConsumeVarint(buf, pos)
if err != nil {
return err
}
orig.Scale = int32(uint32(num>>1) ^ uint32(int32((num&1)<<31)>>31))
case 7:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field ZeroCount", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
orig.ZeroCount = uint64(num)
case 8:
if wireType != proto.WireTypeLen {
return fmt.Errorf("proto: wrong wireType = %d for field Positive", wireType)
}
var length int
length, pos, err = proto.ConsumeLen(buf, pos)
if err != nil {
return err
}
startPos := pos - length
err = UnmarshalProtoOrigExponentialHistogramDataPoint_Buckets(&orig.Positive, buf[startPos:pos])
if err != nil {
return err
}
case 9:
if wireType != proto.WireTypeLen {
return fmt.Errorf("proto: wrong wireType = %d for field Negative", wireType)
}
var length int
length, pos, err = proto.ConsumeLen(buf, pos)
if err != nil {
return err
}
startPos := pos - length
err = UnmarshalProtoOrigExponentialHistogramDataPoint_Buckets(&orig.Negative, buf[startPos:pos])
if err != nil {
return err
}
case 10:
if wireType != proto.WireTypeVarint {
return fmt.Errorf("proto: wrong wireType = %d for field Flags", wireType)
}
var num uint64
num, pos, err = proto.ConsumeVarint(buf, pos)
if err != nil {
return err
}
orig.Flags = uint32(num)
case 11:
if wireType != proto.WireTypeLen {
return fmt.Errorf("proto: wrong wireType = %d for field Exemplars", wireType)
}
var length int
length, pos, err = proto.ConsumeLen(buf, pos)
if err != nil {
return err
}
startPos := pos - length
orig.Exemplars = append(orig.Exemplars, otlpmetrics.Exemplar{})
err = UnmarshalProtoOrigExemplar(&orig.Exemplars[len(orig.Exemplars)-1], buf[startPos:pos])
if err != nil {
return err
}
case 12:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field Min", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
var ov *otlpmetrics.ExponentialHistogramDataPoint_Min
if !UseProtoPooling.IsEnabled() {
ov = &otlpmetrics.ExponentialHistogramDataPoint_Min{}
} else {
ov = ProtoPoolExponentialHistogramDataPoint_Min.Get().(*otlpmetrics.ExponentialHistogramDataPoint_Min)
}
ov.Min = math.Float64frombits(num)
orig.Min_ = ov
case 13:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field Max", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
var ov *otlpmetrics.ExponentialHistogramDataPoint_Max
if !UseProtoPooling.IsEnabled() {
ov = &otlpmetrics.ExponentialHistogramDataPoint_Max{}
} else {
ov = ProtoPoolExponentialHistogramDataPoint_Max.Get().(*otlpmetrics.ExponentialHistogramDataPoint_Max)
}
ov.Max = math.Float64frombits(num)
orig.Max_ = ov
case 14:
if wireType != proto.WireTypeI64 {
return fmt.Errorf("proto: wrong wireType = %d for field ZeroThreshold", wireType)
}
var num uint64
num, pos, err = proto.ConsumeI64(buf, pos)
if err != nil {
return err
}
orig.ZeroThreshold = math.Float64frombits(num)
default:
pos, err = proto.ConsumeUnknown(buf, pos, wireType)
if err != nil {
return err
}
}
}
return nil
}
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